Nanophotonic Devices and Fundamental Functional Operations(<Special Section>Nanophotonics and Related Techniques)
スポンサーリンク
概要
- 論文の詳細を見る
In nanophotonic device operations, characteristic features on a nanometer scale, such as locally excited states, dependence on the excitation number, and spatial symmetry of a system, play an important role. Using these features, selective excitation energy transfer via an optical near field is shown for a quantum-dot system with discrete energy levels. This selectivity strongly depends on a dipole-inactive state of an exciton, which cannot be excited by the far-field light. Operation principles of logic gates, photon storage, and quantum information processing device, which are based on the selectivity, are proposed, and the temporal dynamics are investigated analytically and numerically by using quantum theory. Nanophotonic devices, which are constructed from quantum mechanical and classical dissipative systems, are expected to become one of a key technologies in future device architecture.
- 社団法人電子情報通信学会の論文
- 2005-09-01
著者
-
Ohtsu Motoichi
Department Of Electrical Engineering And Information Systems The University Of Tokyo
-
KOBAYASHI KIYOSHI
Department of Internal Medicine, Tohoku University School of Medicine
-
Kobayashi K
Department Of Electrical Engineering And Information Systems The University Of Tokyo
-
SANGU Suguru
Research and Development Center, Ricoh Co., Ltd.
-
SANGU Suguru
Ricoh Co., Ltd.
-
Sangu Suguru
Ricoh Co. Ltd.
-
Ohtsu M
Department Of Electrical Engineering And Information Systems School Of Engineering The University Of
-
OHTSU Motoichi
The University of Tokyo
-
Kobayashi K
Tokyo Institute Of Technology
-
Ohtsu Motoichi
Department Of Electrical Engineering And Information Systems School Of Engineering The University Of
-
Kobayashi Kiyoshi
Department Of Clinical Physiology Akita City General Hospital
-
Kobayashi Kiyoshi
Department Of Electrical Engineering And Information Systems The University Of Tokyo
-
Ohtsu Motoichi
Department of Electrical Engineering and Information Systems, The University of Tokyo
関連論文
- Circular Magnetic X-Ray Dichroism at the K-Absorption Edge in Fe-Ni Alloys
- Time Evolution of Beam Energy Distribution and Perpendicular Velocity Scattering due to Strong Langmuir Turbulence
- Microwave Power Emission from a Beam-Plasma System
- Correlation between High-Power Broadband Microwave Radiation and Strong Langmuir Turbulence in an Intense Relativistic Electron Beam-Plasma System
- Lateral Integration of Zn and Al Dots with Nanometer-Scale Precision by Near Field Optical Chemical Vapor Deposition Using a Sharpened Optical Fiber Probe(Special Issue on Near-Field Optics and Its Applications)
- Fabrication of an Ultraviolet Light-Emitting Functional Probe of Sub-Micron Size by Photochemical Vapor Deposition
- Observation of Size-Dependent Resonance of Near-Field Coupling between a Deposited Zn Dot and the Probe Apex during Near-Field Optical Chemical Vapor Deposition(Nanophotonics and Related Techniques)
- RENIN-ANGIOTENSIN SYSTEM IN HUMAN HYPERTENSION DUE TO SEGMENTAL RENAL ISCHEMIA
- Multirefiection of Cold Atoms in a Near-Field Optical Funnel
- High Efficiency Exitation of Cylindrical Optical Near Fields for Atom Guidance
- Fluorescence Spectroscopy of Rb Atoms with Two-Color Optical Near Fields for a High-Resolution Slit-Type Detector(Special Issue on Near-Field Optics and Its Applications)
- High Spatial Resolution Atom Detector with Two-Color Optical Near Fields
- Nanophotonic Matching by Optical Near-Fields between Shape-Engineered Nanostructures
- First-Principles Study of C_6M_2 (M = B, Al, Mg, Li), C_7B and Related Compounds
- Electronic and Lattice Properties of MgB_2 and Related Phases under Various Compression Conditions
- New Aspects in Nanofabrication Using Near-Field Photo-Chemical Vapor Deposition
- Initial growth process of a Zn nanodot fabricated using nonadiabatic near-field optical CVD
- Observation of Faraday Rotation and Magnetic Circular Dichroism in an Optical Near-Field Probe Coated with Fe(Nanophotonics and Related Techniques)
- Anti-Parallel Dipole Coupling of Quantum Dots via an Optical Near-Field Interaction(Nanophotonics and Related Techniques)
- Nanophotonic Devices and Fundamental Functional Operations(Nanophotonics and Related Techniques)
- Nanophotonic Computing Based on Optical Near-Field Interactions between Quantum Dots(Nanophotonics and Related Techniques)
- Observation of Multi-Scale Structure for a Creep-Fatigued Ferritic 12Cr-2W Steel
- Superradiance and Dipole Ordering of an N Two-Level System Interacting with Optical Near Fields
- Superradiance and Dipole Ordering of an N Two-Level System Interacting with Optical Near Fields
- Creep and Fatigue Properties of Newly Developed Ferritic Heat-Resisting Steels for Ultra Super Critical (USC) Power Plants
- C-Axis Thermoelectric Power of Stage-2 Graphite Intercalation Compound with Iodine Monobromide
- Multielectron Excitations in 3d Transition Metal Compounds Probed by X-Ray Magnetic Circular Dichroism
- C-Axis Thermoelectric Power of Graphite Intercalation Compounds with Iodine Monochrolide
- C-Axis Thermoelectric Power of Highly Oriented Pyrolytic Graphite
- Thermoelectric Power of Graphite Intercalation Compounds with Iodine Monochrolide
- Magnon Drag Thermoelectric Power in Magnetic Graphite Intercalation Compounds
- Plasma Catecholamine Levels in the Coronary Sinus, Aorta and Femoral Vein of Subjects Undergoing Cardiac Catheterization at Rest and During Exercise.
- Continuous Wavelength Sweep of External Cavity 630 nm Laser Diode without Antireflection Coating on Output Facet
- Papillary fibroelastoma in the left ventricular outflow tract
- Electroless Nickel Plating under Continuous Ultrasonic Irradiation to Fabricate a Near-Field Probe Whose Metal Coat Decreases in Thickness toward the Tip
- Inhibitory Effect of Bacterial Attachment on Candidal Growth Due to Adherence with Mannose-Sensitive Pili
- Fabrication of a Ferromagnetic-Coated Fiber Probe with a Double-Layer Structure(Special Issue on Near-Field Optics and Its Applications)
- Hierarchy in Optical Near-fields by Nano-scale Shape Engineering and its Application to Traceable Memory
- Optical and Structural Properties of ZnO Nanorods Grown on Polyimide Films
- Energy Transfer in Multi-Stacked InAs Quantum Dots
- Estimation of the Minority Carrier Diffusion Length by Near-Field Photocurrent Measurement of p-n Junction in Silicon using Multiwavelength Excitation
- Enhanced Intensity Fluctuations of Multiply Scattered Light in Nonlinear Absorbing Media
- Vacuum Shear Force Microscopy Application to High Resolution Work
- Accurate Frequency Control of External-Cavity Laser Diode by Sideband Locking Technique
- Nanometric Scale Biosample Observation Using a Photon Scanning Tunneling Microscope
- Scale-dependent Optical Near-fields in InAs Quantum Dots and Their Application to Non-pixelated Memory Retrieval
- Reproducible Fabrication Technique of Nanometric Tip Diameter Fiber Probe for Photon Scanning Tunneling Microscope
- Introducing a Quasi-judicial Party to Dispute Resolution in Construction Contracts
- PATHOLOGICAL STUDIES OF RATS INFECTED WITH HEMORRHAGIC FEVER WITH RENAL SYNDROME (HFRS) VIRUS
- Electroless Nickel Plating Aqueous Solution Containing Additive Ammonium Chloride to Fabricate a Near-Field Optical Probe with a Tip Protruding from Nickel Film